KR 280 Max. torque Hydraulic Piling Rig 280 kN 80 m depth Pile
Max drilling dia : 2200mm/2500mm
Max drilling depth : 80m/54m
Max torque: 285kN.m
Base engine :CAT C-9
Engine power :261kw
- Wide depth and diameters range
- Superior loading capacity of the piles
- Absence of vibrations and noise
- Control of piles verticality by means of electronic devices
- Offshore feasibility
FAR SERIES MULTIPLE PURPOSE PILING RIG is designed and built for
different foundation piling works of geology conditions. Kelly
drilling, CFA drilling, DSM drilling, Large Dia.
DTH drilling and Hydraulic hammer functions are optional to suit
your various requirements in different foundation piling works.
base unit is Caterpillar made and various sizes and capacities to
suit your requirement.
Versatility of the undercarriage is fully enhance with and width
-extendable setup for both transportation mode and working mode.
And the undercarriage is nonetheless the famous Transmittal make
type that has long proven history in building rugged, versatile and
The Mast is built using the careful selection of material and with
CAD designed re-enforced with HIGHTENSILE Structure boxed in.
The Triaxis arrangement of mast systems enables a very user
friendly parallelogram set up that can be rig up and ready for work
within few tenth Minutes.
The Kellybars and Augers are built from well-known fabricators such
from either Europe or China.
It has a very stringent control of material selected for the
fabrication of its tools.
The Rotary head and Mast looks the same externally but either
welding Procedures are followed strictly and supervised with
highest standard possible or careful material selection during
The safety purpose Non-winch Rotation when lowering the Kellybar
with or without tools is option.
This prevents the Kellybar wire rope from messing upon the winch.
It's ensures the wire rope is always arranged in a neat and tidy
Extra cushions are installed in the rotary head system to educe
damage during accidental fall of Kellybars on to the drive-flange
during its lifting process.